In ground state of `He^(oplus)` ion how much energy is supplied to electron so that second line of balmer series is obtained in its spectrum `:-`

How much energy is needed is to releases the electron from the second excited state in the hydrogen atom ?

How much energy is required to send the electron at infinite distance from the n = 3 orbit in He^(+) ?

When an electrons makes a transition from higher orbit in the hydrogen atom, what are the lines of the Balmer series obtained ?

The electron in hydrogen atom in a sample is in n^(th) excited state, then the number of differrent spectrum lines obtained in its emission spectrum will be

The wavelength of the first line of Lyman series for hydrogen atom is equal to that of the second line of Balmer series for a hydrogen like ion. The atomic number Z of hydrogen like ion is .........

During which of the following orbits in which electrons makes transitions so that the lines Lyman series obtained in hydrogen atom ?

Assertion: Hydrogen atom consists of anly one electron but its emission spectrum has may lines. Reason: Only Lyman series is found in the absorption spectrum of hydrogen atom whereas in the emission spectrum, all the series are found.

The ratio of energies of electron in the first excited state to its second excited state in H-atom is ......

The potential energy of the orbital electron in the ground state of hydrogen atom is -E What is its kinetic energy ?-

Consider circuit in figure. How much energy is absorbed by electrons from the initial state of no current (ignore thermal motion) to the of drift velocity ?